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Direktori : /usr/lib/python3/dist-packages/twisted/protocols/ |
Current File : //usr/lib/python3/dist-packages/twisted/protocols/socks.py |
# -*- test-case-name: twisted.test.test_socks -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Implementation of the SOCKSv4 protocol. """ import socket import string # python imports import struct import time # twisted imports from twisted.internet import defer, protocol, reactor from twisted.python import log class SOCKSv4Outgoing(protocol.Protocol): def __init__(self, socks): self.socks = socks def connectionMade(self): peer = self.transport.getPeer() self.socks.makeReply(90, 0, port=peer.port, ip=peer.host) self.socks.otherConn = self def connectionLost(self, reason): self.socks.transport.loseConnection() def dataReceived(self, data): self.socks.write(data) def write(self, data): self.socks.log(self, data) self.transport.write(data) class SOCKSv4Incoming(protocol.Protocol): def __init__(self, socks): self.socks = socks self.socks.otherConn = self def connectionLost(self, reason): self.socks.transport.loseConnection() def dataReceived(self, data): self.socks.write(data) def write(self, data): self.socks.log(self, data) self.transport.write(data) class SOCKSv4(protocol.Protocol): """ An implementation of the SOCKSv4 protocol. @type logging: L{str} or L{None} @ivar logging: If not L{None}, the name of the logfile to which connection information will be written. @type reactor: object providing L{twisted.internet.interfaces.IReactorTCP} @ivar reactor: The reactor used to create connections. @type buf: L{str} @ivar buf: Part of a SOCKSv4 connection request. @type otherConn: C{SOCKSv4Incoming}, C{SOCKSv4Outgoing} or L{None} @ivar otherConn: Until the connection has been established, C{otherConn} is L{None}. After that, it is the proxy-to-destination protocol instance along which the client's connection is being forwarded. """ def __init__(self, logging=None, reactor=reactor): self.logging = logging self.reactor = reactor def connectionMade(self): self.buf = b"" self.otherConn = None def dataReceived(self, data): """ Called whenever data is received. @type data: L{bytes} @param data: Part or all of a SOCKSv4 packet. """ if self.otherConn: self.otherConn.write(data) return self.buf = self.buf + data completeBuffer = self.buf if b"\000" in self.buf[8:]: head, self.buf = self.buf[:8], self.buf[8:] version, code, port = struct.unpack("!BBH", head[:4]) user, self.buf = self.buf.split(b"\000", 1) if head[4:7] == b"\000\000\000" and head[7:8] != b"\000": # An IP address of the form 0.0.0.X, where X is non-zero, # signifies that this is a SOCKSv4a packet. # If the complete packet hasn't been received, restore the # buffer and wait for it. if b"\000" not in self.buf: self.buf = completeBuffer return server, self.buf = self.buf.split(b"\000", 1) d = self.reactor.resolve(server) d.addCallback(self._dataReceived2, user, version, code, port) d.addErrback(lambda result, self=self: self.makeReply(91)) return else: server = socket.inet_ntoa(head[4:8]) self._dataReceived2(server, user, version, code, port) def _dataReceived2(self, server, user, version, code, port): """ The second half of the SOCKS connection setup. For a SOCKSv4 packet this is after the server address has been extracted from the header. For a SOCKSv4a packet this is after the host name has been resolved. @type server: L{str} @param server: The IP address of the destination, represented as a dotted quad. @type user: L{str} @param user: The username associated with the connection. @type version: L{int} @param version: The SOCKS protocol version number. @type code: L{int} @param code: The command code. 1 means establish a TCP/IP stream connection, and 2 means establish a TCP/IP port binding. @type port: L{int} @param port: The port number associated with the connection. """ assert version == 4, "Bad version code: %s" % version if not self.authorize(code, server, port, user): self.makeReply(91) return if code == 1: # CONNECT d = self.connectClass(server, port, SOCKSv4Outgoing, self) d.addErrback(lambda result, self=self: self.makeReply(91)) elif code == 2: # BIND d = self.listenClass(0, SOCKSv4IncomingFactory, self, server) d.addCallback(lambda x, self=self: self.makeReply(90, 0, x[1], x[0])) else: raise RuntimeError(f"Bad Connect Code: {code}") assert self.buf == b"", "hmm, still stuff in buffer... %s" % repr(self.buf) def connectionLost(self, reason): if self.otherConn: self.otherConn.transport.loseConnection() def authorize(self, code, server, port, user): log.msg( "code %s connection to %s:%s (user %s) authorized" % (code, server, port, user) ) return 1 def connectClass(self, host, port, klass, *args): return protocol.ClientCreator(reactor, klass, *args).connectTCP(host, port) def listenClass(self, port, klass, *args): serv = reactor.listenTCP(port, klass(*args)) return defer.succeed(serv.getHost()[1:]) def makeReply(self, reply, version=0, port=0, ip="0.0.0.0"): self.transport.write( struct.pack("!BBH", version, reply, port) + socket.inet_aton(ip) ) if reply != 90: self.transport.loseConnection() def write(self, data): self.log(self, data) self.transport.write(data) def log(self, proto, data): if not self.logging: return peer = self.transport.getPeer() their_peer = self.otherConn.transport.getPeer() f = open(self.logging, "a") f.write( "%s\t%s:%d %s %s:%d\n" % ( time.ctime(), peer.host, peer.port, ((proto == self and "<") or ">"), their_peer.host, their_peer.port, ) ) while data: p, data = data[:16], data[16:] f.write(string.join(map(lambda x: "%02X" % ord(x), p), " ") + " ") f.write((16 - len(p)) * 3 * " ") for c in p: if len(repr(c)) > 3: f.write(".") else: f.write(c) f.write("\n") f.write("\n") f.close() class SOCKSv4Factory(protocol.Factory): """ A factory for a SOCKSv4 proxy. Constructor accepts one argument, a log file name. """ def __init__(self, log): self.logging = log def buildProtocol(self, addr): return SOCKSv4(self.logging, reactor) class SOCKSv4IncomingFactory(protocol.Factory): """ A utility class for building protocols for incoming connections. """ def __init__(self, socks, ip): self.socks = socks self.ip = ip def buildProtocol(self, addr): if addr[0] == self.ip: self.ip = "" self.socks.makeReply(90, 0) return SOCKSv4Incoming(self.socks) elif self.ip == "": return None else: self.socks.makeReply(91, 0) self.ip = "" return None